Thanks, Booxtor. It's clearer to me now how the displays work. I thought the microcapsules actually rotated to bring their white or black sides to the top, rather than the particles moving inside them. But now I'm more confused about the stability of the image. Having all the negative black particles on one side of the microcapsule, and the positive white particles on the other side is energetically unstable; the like charges will repel each other and be attracted to the opposite charges. It seems to me that you would need to keep applying the external electric field at all times to keep the particles in position. Yet we know that this isn't true, that the display can keep an image while powered off. What keeps the charged particles in their place? Is the fluid really viscous (more like a gel)?

I've uploaded the wmv movie sent to me by Sil_liS by zipping it first to get around the file type restriction. Enjoy.

what seems clear to me is that ANY e-ink screen has some "dead pixels", well litter of a pixel to be honest, that can not be set to white and stay always black
so this could be a parameter to evaluate the quality of the screen .. the less.. the better..

what seems clear to me is that ANY e-ink screen has some "dead pixels", well litter of a pixel to be honest, that can not be set to white and stay always black
so this could be a parameter to evaluate the quality of the screen .. the less.. the better..

Technically it's not dead pixels it's just dead capsules. The pixels are much bigger. Also they aren't black, but gray. They make white darker and black lighter.

I'm also attaching a video of how an A4 pdf looks on my PB360Plus (fit width).